E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
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Regulation in the face of uncertainty: the evidence on electronic nicotine delivery systems (e-cigarettes)Will chronic e-cigarette use cause lung disease?E-cigarette puffing patterns associated with high and low nicotine e-liquid strength: effects on toxicant and carcinogen exposureElectronic Cigarettes for Curbing the Tobacco-Induced Burden of Noncommunicable Diseases: Evidence Revisited with Emphasis on Challenges in Sub-Saharan Africa.Electronic cigarettes: what are they and what do they do?Nicotine, aerosol particles, carbonyls and volatile organic compounds in tobacco- and menthol-flavored e-cigarettesA Proposed Collaboration Against Big Tobacco: Common Ground Between the Vaping and Public Health Community in the United States.Drug vaping applied to cannabis: Is "Cannavaping" a therapeutic alternative to marijuana?Online E-cigarette Marketing Claims: A Systematic Content and Legal AnalysisOverview of Electronic Nicotine Delivery Systems: A Systematic Review.Nicotine, Carcinogen, and Toxin Exposure in Long-Term E-Cigarette and Nicotine Replacement Therapy Users: A Cross-sectional Study.Cardiovascular effects of electronic cigarettes.Commentary on Farsalinos et al. (2015): E-cigarettes do not expose users to dangerous levels of aldehydes.Knowledge and Perceptions about Nicotine, Nicotine Replacement Therapies and Electronic Cigarettes among Healthcare Professionals in Greece.Cigarette smoke but not electronic cigarette aerosol activates a stress response in human coronary artery endothelial cells in culture.Solvent Chemistry in the Electronic Cigarette Reaction VesselElectronic cigarette aerosol induces significantly less cytotoxicity than tobacco smokeA framework for in vitro systems toxicology assessment of e-liquids.Aldehyde Detection in Electronic Cigarette AerosolsE-cigarette aerosols induce lower oxidative stress in vitro when compared to tobacco smoke.Nicotine and Carbonyl Emissions From Popular Electronic Cigarette Products: Correlation to Liquid Composition and Design Characteristics.Real-Time Measurement of Electronic Cigarette Aerosol Size Distribution and Metals Content Analysis.Flavored e-cigarette liquids and cinnamaldehyde impair respiratory innate immune cell function.Electronic cigarette use in the European Union: analysis of a representative sample of 27 460 Europeans from 28 countries.Formaldehyde Hemiacetal Sampling, Recovery, and Quantification from Electronic Cigarette Aerosols.A critique of the US Surgeon General's conclusions regarding e-cigarette use among youth and young adults in the United States of America.A direct method for e-cigarette aerosol sample collectionNicotine delivery from the refill liquid to the aerosol via high-power e-cigarette device.Drug Vaping: From the Dangers of Misuse to New Therapeutic Devices.Commentary on Farsalinos et al. (2015): E-cigarettes generate high levels of aldehydes only in 'dry puff' conditionsA Novel Vaping Machine Dedicated to Fully Controlling the Generation of E-Cigarette Emissions.Detection of 5-hydroxymethylfurfural and furfural in the aerosol of electronic cigarettes.Automated dripping devices for vapers: RDTAs, bottomfeeders, squonk mods and dripboxes.An Electronic Cigarette Vaping Machine for the Characterization of Aerosol Delivery and Composition.Electronic Cigarette Smoke Impairs Normal Mesenchymal Stem Cell Differentiation.Knowledge about Chemicals in e-Cigarette Secondhand Vapor and Perceived Harms of Exposure among a National Sample of U.S. Adults.Real-Time Chemical Analysis of E-Cigarette Aerosols By Means Of Secondary Electrospray Ionization Mass Spectrometry.Changes in puffing topography and nicotine consumption depending on the power setting of electronic cigarettes.Compensatory Puffing With Lower Nicotine Concentration E-liquids Increases Carbonyl Exposure in E-cigarette Aerosols.Chemical Evaluation of Electronic Cigarettes: Multicomponent Analysis of Liquid Refills and their Corresponding Aerosols.
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P2860
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
description
2015 nî lūn-bûn
@nan
2015 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@ast
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@en
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@nl
type
label
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@ast
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@en
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@nl
prefLabel
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@ast
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@en
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions.
@nl
P2860
P356
P1433
P1476
E-cigarettes generate high levels of aldehydes only in 'dry puff' conditions
@en
P2093
Konstantinos Poulas
Vassilis Voudris
P2860
P304
P356
10.1111/ADD.12942
P407
P577
2015-05-20T00:00:00Z